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研究生: 賴宣佑
Xuan-you Lai
論文名稱: 有機薄膜材料電致發光及光子晶體共振腔研究
Study of Electroluminescent Spectra and Photonic Crystal Cavities in Organic films
指導教授: 陳啟昌
Chii-Chang Chen
張瑞芬
Jui-Fen Chang
口試委員:
學位類別: 碩士
Master
系所名稱: 理學院 - 照明與顯示科技研究所
Graduate Institute of Lighting and Display Science
論文出版年: 2015
畢業學年度: 103
語文別: 中文
論文頁數: 88
中文關鍵詞: 光子晶體有機材料放大自發發射量測有機發光二極體
外文關鍵詞: Photonic crystal, Organic materials, ASE measurement, OLED
相關次數: 點閱:13下載:0
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    • 本論文研究有機材料電致發光光譜與光子共振腔元件。首先利用光放大量測出有機增益材料之增益中心波長,並藉由增益波長與平面波展開法(Plane Wave Expansion, PWE)演算出二維漸進式週期光子晶體共振腔之模擬基本參數參考,再藉由有限時域差分法(Finite-Difference-Time-Domain, FDTD)計算出結構參數及分析漸進式週期光子晶體共振腔之特性。並將有機增益材料F8製作成有機發光二極體(OLED),其目的為待共振腔結構成功製作在有機薄膜上技術成熟後,進行電致共振腔元件之製作,所以對有機發光二極體量測其電性、發光頻譜、和外部量子效率(external quantum efficiency,EQE)作為紀錄,並待成功製作出電致共振腔元件後做為比較。為了在有機材料建置光子晶體共振腔,採用奈米壓印之技術,其主要因素為有機材料無法採用黃光微影蝕刻製程,過程中易使有機材料之性質衰退,所以為成功在有機薄膜建置光子晶體共振腔,研究如何採用奈米壓印的方式建置。上述研究將成為未來研究電致發光光子晶體共振腔元件之基礎。

    In this thesis, we study the electroluminescent spectra of organic materials and the photonic crystal cavity devices. We measure the emission wavelength of the organic gain materials by amplified spontaneous emission. The resonance of the two dimensional graded photonic crystal cavity in the organic material is calculated by the plane wave expansion method. We use the finite–difference-time-domain method to calculate the parameters of the structure and to analyze the properties of the graded photonic crystal cavity. The organic light emitting diode was manufactured by the organic material F8. We measured the electrical property, the spectrum of electroluminescence and the EQE of the materials. The photonic crystal cavity was manufactured on the organic thin film by using nanoimprint techniques. Study of nanoimprint manufacture for the photonic crystal cavity on organic thin film is achieved. The further study is the manufacture of the electroluminescence device with graded photonic crystal cavity.

    摘要 ……………………………………………………………………………………………….i Abstract .............................................................................................. ii 誌謝 ………………………………………………………………………………………………iii 圖目錄 ………………………………………………………………………………………………vi 表目錄 ……………………………………………………………………………………………….x 第一章 緒論 ........................................................................................ 1 1.1 光子晶體簡介 .......................................................................... 1 1.2 有機半導體簡介 ...................................................................... 6 1.3 光子晶體共振腔文獻回顧 ....................................................... 7 1.4 研究動機 ............................................................................... 10 1.5 小結 ....................................................................................... 10 第二章 理論介紹 .............................................................................. 11 2.1 平面波展開法(PWE) ............................................................ 11 2.2 有限時域差分法(FDTD) ...................................................... 12 2.3 品質因值簡介 ....................................................................... 16 2.4 有機雷射原理 ....................................................................... 18 2.4.1 增益性質 ..................................................................... 18 2.4.2 共振腔......................................................................... 24 2.5 小結 ...................................................................................... 28 第三章 光子晶體共振腔設計模擬 .................................................... 29 3.1 能帶計算 .............................................................................. 29 3.2 共振腔頻率及模態計算 ........................................................ 34 3.3 Q 值計算 ............................................................................... 36 3.4 Q 值結果分析 ........................................................................ 41 3.5 小結 ...................................................................................... 43 第四章 元件製程量測....................................................................... 44 4.1 有機材料 F8 光致與電致發光檢測 ...................................... 44 4.1.1 有機材料 F8 之 PL 量測 .............................................. 44 4.1.2 有機材料 F8 之 ASE 量測 ........................................... 46 4.1.3 OLED 元件製作步驟 .................................................... 51 4.1.4 OLED 電致發光光學量測 ............................................. 54 4.2 電致發光光子晶體共振腔元件製作流程設計 ...................... 57 4.3 共振腔製作 .......................................................................... 58 4.4 結果討論 ............................................................................... 62 4.5 小結 ...................................................................................... 69 第五章 結論與未來展望 ................................................................... 70 參考文獻 ........................................................................................... 73

    [1] S. John, ”Strong localization of photons in certain disordered dielectric superlattice,” Phys. Rev. Lett. 58, 2486(1987)
    [2] E. Yablonovitch, ”Inhibited Spontaneous Emission in Solid-State Physics and Electronics,”Phys. Rev. Lett. 58, 2059(1987)
    [3] J. D. Joannopoulos, S. G. Johnson, J. N. Winn et al., Photonic Crystal – Molding the Flow of Light, Second Edition, Princeton University Press,41 Willian Street, Princeton, New Jersey 08540(2008)
    [4] 欒丕綱,陳啟昌,光子晶體-從蝴蝶翅膀到奈米光子學,二版,五南圖書出版公司,台北 (2010)
    [5] T. A. Birks, P. J. Roberts, P. St. J. Russell, D. M. Atkin ,T. J. Shepherd, ”Full 2-D photonic bandgaps in silica/air structures,” Electron. Lett. 31, 1941(1995)
    [6] O.Painter, R. K. Lee, A. Scherer, P. T. Lee. I. Kim, J. D. O’Brien, P. D. Dapkus, “Two-Dimension Photonic Band-Gap Defect Mode Laser”Science. 284, 1879(1999)
    [7] A. Chutinan and S. Noda, “Highly confined waveguides and waveguide bends in three-dimension photonic crystal,”Appl. Phys. Lett. 75, 24(1999)
    [8] M. H. Shih, W. J. Kim, W. Kuang, J. R. Cao, H. Yukawa, S. J. Choi, J. D. O’Brien,and P. D. Dapkus, “Two-dimensional photonic crystal Mach-Zehnder Interferometers,”Appl. Phys. Lett. 84, 4(2004)
    [9] Martinez, Alejandro, Sanchis, Pablo, Marti, Javier, “Mach-Zehnder interferometers in photonic crystal,”Opt. Quant. Electron. 37, 1(2005)
    [10] P. Russell,”Photonic Crystal Fibers”Science 299, 358(2003)
    [11] P. Russell,”Photonic-Crystal Fibers”J. Lightwave Technol.24, 12(2006)
    [12] C.H.Chan, C. C. Chen, C. K. Huang, W. H. Weng, H. S. Weil, H.Chen, H. T. Lin, H. S. Chang, W. Y. Chen, W. H. Chang and T. M. Hsu, ”Self-assembled Free-standing colloidal crystals,” Nanotechnology.16, 1440(2005)
    [13] B. S. Song, S. Noda, T. Asano and Y. Akahane, “Ultra-high-Q photonic double-heterostructure nanocavity,”Nature Material 4, 207 (2005)
    [14] Y. C. Cheng, D. P. Cai, C. C. Chen, C. H. Chan, C. C. Lee, Y. L. Tsai” Photonic Crystal Cavity With Double Heterostructure in GaN Bluk,”IEEE Photonic Journal. 5, 2202206(2013)
    [15] B. A. Bolto, R. McNeill, D. E. Weiss” Electronic Conduction in Polymers. III. Electronic Properties of Polypyrrole,” Aust. J. Chem. 16, 1090(1963)
    [16] C. K. Chiang, C. R. Fincher, Jr., Y. W. Park, A. J. Heeger,” Electrical Conductivity in Doped Polyacetylene,” Phys. Rev. Lett. 39, 1098(1977)
    [17] C. W. Tang, S. A. VanSlyke,”Organic Electroluminescent Diode,”Appl. Phys. Lett.51, 913(1987)
    [18] J. H. Burroughes, D. D. C. Bradley, A. R. Brown, R. N. Marks, K. Mackay, R. H. Friend, P. L. Burns, A. B. Holmes,”Light-Emitting Diodes Based on Conjugated Polymers,”Nature 347, 539(1990)
    [19] F. Cicoira, C. Santato,”Organic Light Emitting Field Effect Transistors:Advances and Perspectives,”Adv. Funct. Mater.17, 3421(2007)
    [20] J. F. Chang, M. C. Gwinner, M. Caironi, T. Sakanoue, H. Sirringhaus,”Conjugated-Polymer-Based Lateral Heterostructures Defined by High-Resolution Photolithography,”Adv. Funct. Mater. 20, 2825(2010)
    [21] J. Y. Kim, K. Lee, N. E. Coates, D. Moses, T. Q. Nguyen, M. Dante, A. J. Heeger,”Efficient Tandem Ploymer Solar Cells Fabricated by All-Solution Processing,”Science 317, 222(2007)
    [22] P. R. Berman,”Cavity quantum electrodynamics,”Academic Press, San Diego, CA, (1994)
    [23] B. D’Urso, O. Painter, J. D. O’Brien, T. Tombrello, A. Yariv, A. Scherer,”Model Reflectivity in Finite-Depth Two-Dimensional Photonic-Crystal Microcavities,”J. Opt. Soc. Am. B 15, 1155(1998)
    [24] O. Painter, R. K. Lee, A. Scherer, A. Yariv , J. D. O’Brien, P. D. Dapkus, I. Kim,”Two-Dimensional Photonic Band-Gap Defect Mode Laser,”Science 284, 1819(1999)
    [25] O. Painter, A. Husain, A. Scherer, P. T. Lee, I. Kim, J. D. O’Brien, P. D. Dapkus,”Lithographic Tuning of a Two-Dimension Photonic Crystal Laser Array,”IEEE Photo. Tech. Lett. 12, 1126(2000)
    [26] M. Meier, A. Dodabalapur, J. A. Rogers, R. E. Slusher, A. Mekis, A. Timko, C. A. Murray, R. Ruel, O. Nalamasu,” Emission Characteristics of Two-Dimensional Organic Photonic Crystal lasers Fabricated by Replica Molding,”J. Appl. Phys. 86, 3502(1999)
    [27] A. Mekis, M. Meier, A. Dodabalapur, A. Timko, R. E. Slusher, J. D. Joannopous, O. Nalamasu,” Laser Action from Two-Dimensional Distributed Feedback in Photonic Crystals,”Appl. Phys. Lett. 74, 7(1999)
    [28] A. Mekis, M. Meier, A. Dodabalapur, R. E. Slusher, J. D. Joannopous,” Lasing Mechanism in Two-Dimensional Photonic Crystal Lasers,” Appl. Phys. A 69, 111(1999)
    [29] M. Notomi, H. Suzuki, T. Tamamura,” Directional Lasing Oscillation of Two-Dimensional Organic Photonic Crystal Lasers at Several Photonic Band Gaps,”Appl. Phys. Lett. 78, 1325(2001)
    [30] M. Kitamura, S. Iwamoto, Y. Arakawa,” Enhanced Light Emission from an Organic Photonic Crystal with a Nanocavity,”Appl. Phys. Lett. 87, 15119(2005)
    [31] R. Harbers, P. Strasser, D. Caimi, R. F. Mahrt, N. Moll, B. J. Offrein, D. Erni, W. Bachtold, U. Scherf,” Enhanced Feedback in Organic Photonic Crystal Lasers,”Appl. Phys. Lett. 87, 151121(2005)
    [32] C. Karnutsch, M. Stroisch, M. Punke, U. Lemmer, J. Wang, T. Weimann,” Laser Diode-Pumped Organic Semiconductor Laser Utilizing Two-Dimension Photonic Crystal Resonators,”IEEE Photonic Tech. Lett. 19, 1041(2007)
    [33] K. Baumann, T. Stoferle, N. Moll, R. F. Mahrt, T. Wahlbrink, J. Bolten, T. Mollenhauer, C. Moormann, U. Scherf,” Organic Mixed-Order Photonic Crystal Lasers with Ultrasmall Footprint,”Appl. Phys. Lett. 91, 171108(2007)
    [34] F. Gourdon, M. Chakaroun, N. Fabre, J. Solard, E. Cambril, A. M. Yacomotti, S. Bouchoule, A. Fisher, A. Boudrioua,” Optically Pumped Lasing from Organic Two-Dimensional Planar Photonic Crystal Microcavity,”Appl. Phys. Lett. 100, 213304(2012)
    [35] G. Barbillon, F. Gourdon, E. Cambril, N. Fabre, A. M. Yacomotti, S. Bouchoule,” SiN/Organic Photonic Crystal Microcavity Optimization for the Fabrication of Thin-Film Micro-laser,”Optics Communications 325, 15(2014)
    [36] K. Sakoda,”Optical Properties of Photonic Crystal,”Springer-Verlag,(2004)
    [37] K. S. Yee,”Numerical Solution of Initial Boundary Value Problems Involving Maxwell’s Equations in Isotropic Media,”IEEE Trans. Antennas Propag,14, 302(1966)
    [38] K. Kawano , T. Kitoh, Introduction to Optical Waveguide Analysis, WILEY,(2001)
    [39] T. Ochiai, K. Sakoda,”Dispersion Relation and Optical Transmittance of a Hexagonal Photonic Crystal Slab,”Phys.Rev.B.63, 125107(2001)
    [40] C. Kim, W. J. Kim, A. Stapleton, J. R. Cao, J. D. O'Brien, P. D. Dapkus,”Quality Factors In Single-Defect Photonic-Crystal Lasers with Asymmetric Cladding Layers,”J. Opt. Soc. Am. B,19, 1777(2002)
    [41] H. Y. Ryu, J. K. Hwang, Y. H. Lee,”The Smallest Possible Whispering-Gallery-Like Mode in the Square Lattice Photonic-Crystal Slab Single-Defect Cavity,”IEEE J. Quantum Elect.39, 314(2003)
    [42] I. D. W. Samuel, G. A. Turnbull,”Organic Semiconductor Lasers,”Chem. Rev.,107, 1272(2007)
    [43] M. D. MacGehee, R. Gupta, S. Veenstra, E. K. Miller, M. A. Diaz-Garcia, A. J. Heeger,” Amplified spontaneous emission from photopumped films of a conjugated polymer,”Phys. Rev. B 58, 7035(1998)
    [44] T. Kobayashi, W. J. Blau,” Laser Emission from Conjugated Polymer in Fiber Waveguides Structure,”Electron. Lett. 38, 67(2002)
    [45] R. Xia, G. Heliotis, P. N. Stavrinou, D. D. Bradley,” Polyfluorene Distributed Feedback Lasers Operating in the Green-Yellow Spectral Region,” Appl. Phys. Lett. 87, 031104 (2005)
    [46] A. E. Vasdekis, S. A. Moore, A. Ruseckas, T. F. Krauss, I. D. Samuel,” Silicon Based Organic Semiconductor Laser,”Appl. Phys. Lett. 91, 051124(2007)
    [47] B. S. Song, T. Asano, Y. Akahane, Y. Tanaka, S.Noda,” Transmission and reflection characteristics of in-plane hetero-photonic crystals,”Appl. Phys. Ltt. 85, 4591(2004)
    [48] Y. Tanaka, T. Asano, S. Noda,” Design of Photonic Crystal Nanocavity With Q-Factor of ~109 ,”J. Lightwave Technol.26, 1532(2008)
    [49] M. Campoy-Quiles, P. G. Etchegoin, D. D. C. Bradley,”On the optical anisotropy of conjugated polymer thin films,”Phys. Rev. B 72, 045209(2005)
    [50] H. Azuma, T. Kobayashi, Y. Shim, N. Mamedov, H. Naito,”Amplified Spontaneous Emission in α-phase and β-phase polyfluorene waveguides,”Org. Electron. 8, 184(2007)
    [51] Y. Akahane, T. Asano, B. S. Song, S. Noda,”Fine-tuned high-Q photonic-crystal nanocavity,” OPT EXPRESS 13, 1202(2005)
    [52] G. Heliotis, R. Xia, K. S. Whitehead, G. A. Turnbull,I. D. W. Samuel,D. D. C. Bradley,”Investigation of amplified spontaneous emission in Oriented Films of a Liquid Crystalline Conjugated Polymer,”Synthetic Met. 139, 727(2003)
    [53] G. Heliotis, D. D. C Bradley, G. A. Turnbull, I. D. W. Samuel,” Light amplification and gain in polyfluoren waveguides,”Appl.Phys.Lett.81, 415(2002)
    [54] K. H. Weinfurtner, H. Fujikawa, S. Tokito, Y. Taga,”Highly efficient pure blue electroluminescence from polyfluorene: Influence of the molecular weight distributuuin on the aggregation tendency,”Appl.Phys.Lett.76, 2502(2000)
    [55] H. Azuma, K. Asada, T. Kobayashi, H. Naito,”Fabrication of α- and β-phase poly(9,9-dioctyluorene)thin films,” Thin Solid Film 509, 182(2006)
    [56] H. T. Nicolai, G. A. H. Wetzelaer, M. Kuik, A. J. Kronemeijer, B. de Boer, P. W. M. Blom,” Space-charge-limited hole current in poly(9,9-dioctylfluorene) diodes” Appl. Phys. Lett. 96, 172107(2010)
    [57] Y. Li, D. Q. Zhang, L. Duan, R. Zhang, L. D. Wang, Y. Qiu,” Elucidation of the electron injection mechanism of evaporated cesium carbonate cathode interlayer for organic light-emitting diodes” Phys. Lett. 90, 012119 (2007)
    [58] N. Koo, M. Bender, U. Plachetka, A. Fuch, T. Wahlbrink, J. Bolten, H. Kurz, “Fabrication of disordered photonic crystal structures for organic random lasing devices” Microelectron. eng.84, 1581(2007)
    [59] N. Koo, M. Bender, U. Plachetka, A. Fuchs, T. Wahlbrink, J. Bolten, H. Kurz,” Improved mold fabrication for the definition of high quality nanopatterns by Soft UV-Nanoimprint lithography using diluted PDMS material” Microelectron eng. 84, 904(2007)
    [60] Hella-C Scheer, H. Schulz, T. Hoffmann, C. M. S. Torres, Nanomaterials and Magnetic Thin Film, Academic Press, (2002).
    [61] H. Nakanotani, R. Kobe, M. Yahiro, T. Takenobu, Y, Iwasa, C. Adachi” Blue-Light-Emitting Ambipolar Field-Effect Transistors Using an Organic Single Crystal of 1,4-Bis(4-methylstyryl)benzene” Appl. Phys. Express 1, 091801(2008)

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